TOKAMAK RESEARCH IN IOFFE INSTITUTE
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1 TOKAMAK RESEARCH IN IOFFE INSTITUTE N.N. Bakharev et al. 27th IAEA Fusion Energy Conference (FEC 218) Gandhinagar, India October 218
2 List of contributors N.N. BAKHAREV, G.I. ABDULLINA, V.I. AFANASIEV, A.B. ALTUKHOV, L.G. ASKINAZI, N.A. BABINOV, A.N. BAZHENOV, A.A. BELOKUROV, I.M. BUKREEV, F.V. CHERNYSHEV, I.N. CHUGUNOV, D.N. DOINIKOV, V.V. DYACHENKO, L.A. ESIPOV, D.B. GIN, A.D. GURCHENKO, E.Z. GUSAKOV, V.K. GUSEV, M.V. ILIASOVA, M.A. IRZAK, A.N. KONOVALOV, E.M. KHILKEVITCH, S.A. KHITROV, N.A. KHROMOV, E.O. KISELEV, V.A. KORNEV, A.N. KOVAL, D.V. KOUPRIENKO, S.V. KRIKUNOV, O.L. KRUTKIN, G.S. KURSKIEV, S.I. LASHKUL, S.V. LEBEDEV, A.D. MELNIK, V.B. MINAEV, I.V. MIROSHNIKOV, E.E. MUKHIN, V.O. NAIDENOVA, A.N. NOVOKHATSKII, A.S. NAVOLOTSKY, K.YU. OSHUEV, M.I. PATROV, M.P. PETROV, S.Ya PETROV, YU.V. PETROV, I.A. POLYNOVSKY, A.YU. POPOV, A.G. RAZDOBARIN, D.V. RAZUMENKO, V.V. ROZHDESTVENSKY, N.V. SAKHAROV, D.S.SAMSONOV, A.N. SAVELIEV, P.B. SHCHEGOLEV, A.E. SHEVELEV, A.D. SLADKOMEDOVA, A.I. SMIRNOV, V.V. SOLOKHA, V.A. SOLOVEI, A.YU. TELNOVA, V.A. TOKAREV, S.YU. TOLSTYAKOV, P.V. TRETINNIKOV, A.S. TUKACHINSKY, V.I. VARFOLOMEEV, N.A. ZHUBR Ioffe Institute St.-Petersburg, Russia M.D. BLEHSHTEIN, V.V. BULANIN, A.V. PETROV, A.YU. YASHIN Peter the Great St. Petersburg Polytechnic University St.-Petersburg, Russia E.N. BONDARCHUK, S.N. KAMENSHIKOV, A.A. KAVIN, K.M. LOBANOV, A.B. MINEEV JSC «NIIEFA», St.-Petersburg, Russia V.I. DAVYDENKO, A.A. IVANOV, V.V. KOLMOGOROV, I.V. SHIKHOVTSEV BINP SB RAS Novosibirsk, Russia C. LECHTE Institute of Interfacial Process Eng. and Plasma Technology 7569 Stuttgart, Germany E.G. ZHILIN Ioffe Fusion Technology Ltd. St.-Petersburg, Russia S. HEURAUX Institute Jean Lamour UMR 7198 CNRS, Université de Lorraine 54 Nancy, France A.V. GORBUNOV NRC Kurchatov Institute Moscow, Russia AL.P. CHERNAKOV JSC «Spectral-Tech», St.-Petersburg, Russia S.P. PANDYA, S.N. PANDYA Institute for Plasma Research Gandhinagar, , India T.P. KIVINIEMI, S. LEERINK, P. NISKALA Aalto University Espoo, Finland 2/24
3 Outline Introduction Globus-M Energy confinement Alfven eigenmodes Discharge disruptions SOL study FT-2: benchmarking of the full-f gyrokinetic modeling against DR using synthetic diagnostics TUMAN-3M L-H transition induced by GAMs and pellet injection ICE in NBI-heated plasma ICE in OH plasma Alfven eigenmodes in OH plasma Theory group: anomalous absorption and emission in ECRH experiments ITER diagnostics development NPA and GRS DTS and LIF Globus-M2 first plasma Summary 3/24
4 Introduction In 218, Ioffe Institute celebrates its 1th anniversary. Fusion research in Ioffe Institute has been going on for more than 6 years. At present theory group, ITER group, 3 tokamaks: Globus-M2 FT-2 TUMAN-3M R [cm]/a [cm] 36/24 = /8 = /22 = 2.4 BT [T] / Ip [ka] 1 / 5 3 / 4 1 / 18 4/24
5 Globus-M parameter value R [cm]/a [cm] 36/24 = 1.5 k 2. δ.5 B T, T.5 I p, ka 25 t pulse, ms 13 P NBI [MW] 1 Last experimental campaign: B T :.4 T.5 T I p : 2 ka 25 ka [Bakharev N.N. et al. Nucl. Fusion 218 accepted manuscript] /24
6 Globus-M: Energy confinement W GLB, kj τ E GLB ~I p.51±.26 B T 1.2±.1 P abs -.54±.26 n e.67±.4 IPB98(y,2): τ E ~I p.93 B T.15 P abs -.69 n e.4 B T E, T ms 2, 1,5 1,,5 MAST: τ E ~I p.59 B T 1.4 NSTX: τ E ~I p.57 B T 1.8 B T E ~ * -.4 NSTX B T τ E ~ν* -.79 MAST B T τ E ~ν * -.82,,,1,2,3,4 W exp, kj * Energy confinement time strongly depends on toroidal magnetic field. Normalized energy confinement time exhibits moderate dependence on collisionality Ion heat transport is close to neoclassical level. Anomalous contribution is observed at low collisionality. EX/P5-2 (Thursday), Kurskiev G.S. et al [G.S. Kurskiev et al. PPCF 59 (217)] 6/24 T CXRS /T neo i i
7 Globus-M: TAE ka,.4t 24 ka,.5 T <n 1.6 e > (1 19 *m -3 ) MHD signal (a.u.) neutron rate (a.u.) NPA flux, E=27 kev (a.u.) t, ms Modes became more frequent due to better fast ion (FI) accumulation because of the better classical FI confinement and lower TAE-induced losses. [BULANIN V., et al. Tech. Phys. Lett (217) 167] [GUSEV V. et al. Tech. Phys. Lett (218) 67] <n e > (1 13 *cm -3 ) MHD signal (a.u.) NPA f lux, E= 26 kev (a.u.) t, ms TAE-induced Fast Ion losses drop of 28.5 kev CX neutral flux, % 18 ka 24 ka B, 1-3 T B T increase also resulted in FI losses decrease, but this effect was much weaker 7/24
8 Globus-M: TAE Z, m n e, 1 19 m -3 MP, a.u. f, khz f, khz f, khz f, khz 2, 1,, TAE localization by DBS : a #36645 b c d e f DBS, 48 GHz DBS, 39 GHz DBS, 29 GHz I p = 25 ka B tor =.5 T t, ms,4,8 [BULANIN V., et al. Tech. Phys. Lett (217) 167] [GUSEV V. et al. Tech. Phys. Lett (218) 67] MP,8,6,6,4,8,6,4,16,8,4,2, a.u., a.u., a.u. f, MHz Comparison of the experimental and calculated TAE localization ~B [gauss] Experiment: ρ = n=1 n=2 q n=1 n=2 #371 t = ms R [cm] TUMAN-3M: k II =1.74 OH mgae -1 L - H transition LCFS q t, ms r = 22 cm r = 18 cm r = cm KINX + KAXE modeling: ρ = toroidal mode number n= / A 2 =.137 R, m 8/24
9 t CQ /(SL) ( ms/m 2 ) Globus-M: disruption study Globus-M IDDB: t CQ = (t 2 -t 8 )/.6 IDDB: t CQ /SL : 1,7-1 ms/m 2 ITER min : t CQ /SL 1.67 ms/m 2 2,4,8 1,2 Ip/S (MA/m 2 ) 17 kpa << P atm t CQ ~ I p like in NSTX, but not in IDDB Linear dependence, almost no difference for H and D [SAKHAROV, N. et al, Plasma Phys. Rep. 43 (217) 422] [SAKHAROV, N., GUSEV V., KAVIN A. et al, Plasma Phys. Rep., 44 (218) 335] 9/24
10 Globus-M: SOL width New adjustable 9-pin probe was installed at LFS midplane. T e (ev) ev 42 ev Separatrix R-Rsep (mm) Typical Globus-M T e and n e profiles B T =.4 T B T =.5 T n e (1 18 m -3 ) m m -3 Separatrix B T =.4 T B T =.5 T R-Rsep (mm) q Experimental (mm) λ q scaling fitting JET AUG C-Mod MAST NSTX D3D Globus-M q Eich-213 (mm) Good agreement with both EICH scalings is observed: [Eich 211] scaling: [Eich 213] scaling: Globus-M database fitting: λ q ~ I -1.2 p B.6 T λ q ~I -1.1 p B.42 T λ q ~I -.9 p 1/24
11 FT-2 tokamak High field high aspect ratio tokamak. parameter R [cm]/a [cm] value 55/8= 6.8 B T, T 3 I p, ka 4 q a 3-6 P LHH [kw] 18 11/24
12 COMPREHENSIVE BENCHMARKING OF FULL-F GLOBAL GK MODELING AGAINST THE FT-2 TOKAMAK DOPPLER REFLECTOMETRY DATA P (norm. un.) HFS X-mode DR experimental data VS ELMFIRE code modeling via fast linear synthetic diagnostic version based on the reciprocity theorem full-wave synthetic diagnostic version utilizing the IPF-FD3D code Good agreement between the measured and computed DR frequency spectra (the spectra frequency shift, width and form for all incidence angles). The mean fluctuation velocity and GAM characteristics were close thus indicating correct description of the global electric field dynamics by the code. The variation of the DR signal at growing incidence angles in experiment is slower than predicted by both synthetic diagnostics because of the overestimation of the turbulence poloidal wavenumber spectrum decay rate with growing wavenumber due to incorrect modelling in the smallscale (ETG-mode) domain. The experimental radial correlation DR data is in agreement with full-wave synthetic diagnostic prediction thus indicating correct description of the turbulence radial wavenumber spectra. Substantial difference found for the fast synthetic diagnostic is related to the large contribution of long scale fluctuation, which is suppressed in experiment by the probing wave phase modulation (transition to the nonlinear regime of DR operation). experiment FS DR FWS DR f (khz) TH/8-2 (Friday-poster, Saturday-oral) A. B. Altukhov et al. P s (norm.un.) (cm -1 ) experiment.2 FS DR.1 FWS DR y a (mm) Coherence synth. measur. synth.with phase full wave f (GHz) 12/24
13 Compact tokamak TUMAN-3M Compact conventional tokamak. parameter value R [cm]/a [cm] 53/22 = 2.4 B T, T 1 I p, ka 18 t pulse, ms 8 P NBI [MW] 1 13/24
14 TUMAN-3M and FT-2: modeling of the GAM-triggered L-H transition GAM-initiated LH-transition Observed at TUMAN-3M. Not observed at FT-2 for similar conditions. 25 FT-2 (DEUTERIUM) r = 4.5 cm dn/dr, 1 19 m E OSC = 4.5 kv/m E OSC = 5.5 kv/m r = 21.5 cm L-mode GAM H-mode L-mode t, ms Thresholds on GAM amplitude and duration exist., 1 19 m -2 s -1 2 I s 15 1 grad n - L-mode grad n, 1 19 m -4 [L.G. Askinazi et al 217 Plasma Phys. Control. Fusion ] 14/24
15 TUMAN-3M: modeling of pellet-triggered L-H transition D, m 2 s -1 S int, 1 19 m -2 s -1 grad n, 1 19 m Gas puff Pellet injection The LH-transition occurred if the pellet evaporation was peripheral. Pellet t, ms.21 m Sufficient E r -shear and high particle source is needed for GAM- and pellet- H-mode triggering. If particle source is too low, self-sustaining H-mode is not possible for certain scenario. [T.P. Kiviniemi et al 218 Plasma Phys. Control. Fusion 6 851] [A.A. Belokurov et al 218 Nucl. Fusion ], 1 19 m -2 s r/a =.96 grad n - L-mode I S - with pellet gas cloud I S - before pellet grad n, 1 19 m -4 15/24
16 TUMAN-3M: Ion Cyclotron Emission during NBI heating NBI Ion Cyclotron Emission (ICE) frequency corresponds to the central IC resonance for minority ions. Comes from core plasma region. ICE frequency depends on Btor but not on ne. Fine structure, oscillating with sawtooth. CAE instability excited by stagnating fast ions: w = lwci + k vb Beam with E, E/2, E/3, 2E/3 -> fine structure Sawtooth may induce redistribution of fast ions [ASKINAZI, L. et al, Nucl. Fus. 58 (218) 823] 16/24
17 TUMAN-3M: Ohmic Ion Cyclotron Emission Not caused by suprathermal ions. Spectrum typically consisted of 8-9 harmonics with frequencies evolving with B T. Detected in H and D plasmas both in LFS and HFS. OICE fundamental depends on the probe position; it corresponds to the ion-cyclotron resonance frequency of the main plasma ions in the close vicinity of the corresponding magnetic probe. Could be understood in frames of the Ion Cyclotron Drift Instability proposed by Mikhailovsky & Timofeev and based on ICE excitation in inhomogeneous plasma: ρ i a 2 m e m i 1 2, a = 1 n dn dr 1 Spectra of OH ICE, measured by the two magnetic probes: LFS and HFS in H and D plasmas. 17/24
18 ANOMALOUS ABSORPTION AND EMISSION IN ECRH EXPERIMENTS DUE TO PARAMETRIC EXCITATION OF LOCALIZED UH WAVES A possibility of two-uh-plasmon parametric decay instability excitation in X2 ECRH experiments in fusion devices with non-monotonous density profile is demonstrated in a wide plasma density range. The instability leading to generation of the trapped UH wave is excited at the pump power of about 1 kw. Well above the threshold it is leading to anomalous absorption rate of more than 1%. The plasma microwave emission at the pump half frequency ω /2 and at the frequency 3ω /2 is predicted at the level of 5 W. TH/P4-1 (Wednesday) E. Z. Gusakov et al. 18/24
19 Neutral Particle Analyzer for ITER Recent progress in the NPA developing. 3D design. [Mironov M. et al., Nucl. Fusion 58 (218) 823] 19/24
20 ITER Gamma Ray Spectrometer NS el. motor NS positioner NPA neutron dump GRS positioner GRS el. motor ND support and alignment system Detectors of the GRS and NS are located in the Neutron Dump of the NPA. 3D-model of the ND support and alignment system has been developed. Electromotors, solenoids and position switches of the GRS and NS positioners have been successfully tested under the integral neutron flux of 1 13 n/cm 2. 2/24
21 ITER Divertor Thomson scattering/laser-induced Fluorescence Hardware design development: Special lasers: Nd:YAG(164 nm) main diagnostic laser for ITER DTS Prototype of Nd:YAG(946 nm) for double-wavelengths TS calibration ITER DTS Digital Filter Polychromator Laser equipment [GORBUNOV A., Fus. Eng. and Design 123 (217) 695] [MUKHIN E.et al., Fus. Eng. and Design 123 (217) 686] [A.Kornev et al SOFT 218] [E.Mukhin et al FED 217] Spectroscopic room DTS/LIF equipment situated in ITER Lower Port #8. 1 Strike point on the outer divertor target; 2 Laser beams; 3 Front and back racks used for arrangement of DTS/LIF in vessel equipment and neutron shield components FIP/P1-5 (Tuesday) A. G. Razdobarin et al. 21/24
22 ITER Divertor Thomson scattering/laser-induced Fluorescence A new kind of LIF spectroscopic scheme based on laser induced quenching of the most intensive hydrogen line H α = nm is proposed. Meeting the requirements in input parameters for divertor plasma modelling DTS/LIF provides simultaneous measurements of T e, n e, T i, n i n He/H/D/T distribution in ITER divertor SOL providing simulation of - Ionization balance: Rates of ionization and recombination (T e, n e ); - Emission intensity (T e n e n i n He/H/D/T ); - Frictional force of the plasma flow due to collisions with neutrals (T i n i n He/H/D/T ); - Pressure of the incoming plasma flow (T e n e T i n i ). [A. Gorbunov et al Plasma Fus. Eng. and Design ] [A. Gorbunov et al, SOFT 218] FIP/1-5 (Monday) E. E. Mukhin et al. 22/24
23 Globus-M2 R [cm]/a [cm]= 36/24 = 1.5 B T = 1T, I p = 5 ka Diverse diagnostics, heating and CD systems, including 2xNBI, ICRH, LHCD, plasma gun Extreme P heat /V = 6 MW/m 3 First plasma: April 23 rd Experimental campaign: end of 218 FIP/P7-34 (Friday) V. B. Minaev et al. 23/24
24 Conclusion Experiments with increased B T and I p in Globus-M demonstrated discharge improvement. Strong dependence of τ E on B T was observed. For the first time TAE localization using DBS was measured. It is in a good agreement with modeling. t CQ was in a good agreement with IDDB. Almost no dependence on m i and linear dependence on I p was observed. λ q midplane dependence was estimated as ~ I -1.2 p. Global full-f GK code benchmarking against DR data demonstrated good agreement in radial electric field dynamics and turbulence radial correlation properties, but not in poloidal wavenumber spectrum thus appealing to the multi-scale GK modeling The importance of particle source and E r -shear was demonstrated for GAM- and pellet- induced L-H transition. ICE was observed in NBI-heated discharges in TUMAN-3M. The possible explanation is CAE instability, excited by stagnating fast ions. ICE was also observed in OH plasma. More than 1% anomalous absorption of the ECRH power is predicted due to parametric excitation of a localized UH wave. A measurable level of the plasma microwave emission at harmonics of the pump wave half-frequency is predicted. Considerable progress in ITER NPA, GRS, DTS\LIF development has been made. New Globus-M2 spherical tokamak is online. 24/24
25 Thank you for your attention!
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